A library for manipulating and evaluating metric temporal (fuzzy) logic.
Project description
py-metric-temporal-fuzzy-logic
WARNING: This is an experimental fork of the
metric-temporal-logic
library, available at mvcisback/py-metric-temporal-logic. THis fork adds support for different fuzzy connectives to the evaluation logic; the changes support different semantics for the core logical operations: norm (and), conorm (or), implication, and negation (not). Unless those changes are a strong requirement, we recommend the use of the original library.
Table of Contents
About
Python library for working with Metric Temporal Logic (MTL) with fuzzy logic. Metric
Temporal Logic is an extension of Linear Temporal Logic (LTL) for
specifying properties over time series (See Alur). Fuzzy Logic introduces fuzzy
valuation of the properties, as an example in the interval [0;1]
as opposed to crisp
True
/False
values (See FT-LTL). The library does not introduce Fuzzy Time
operators such as almost always. Some practical examples are given in the usage.
Installation
There is currently no release of the library. It needs to be built locally using the
poetry python package/dependency
management tool:
$ poetry build
The package can be installed locally using your reference package manager.
Usage
To begin, we import mtfl
.
import mtfl
There are two APIs for interacting with the mtfl
module. Namely, one can specify the MTL expression using:
We begin with the Python Operator API:
Python Operator API
Propositional logic (using python syntax)
a, b = mtfl.parse('a'), mtfl.parse('b')
phi0 = ~a
phi1 = a & b
phi2 = a | b
phi3 = a ^ b
phi4 = a.iff(b)
phi5 = a.implies(b)
Modal Logic (using python syntax)
a, b = mtfl.parse('a'), mtfl.parse('b')
# Eventually `a` will hold.
phi1 = a.eventually()
# `a & b` will always hold.
phi2 = (a & b).always()
# `a` until `b`
phi3 = a.until(b)
# `a` weak until `b`
phi4 = a.weak_until(b)
# Whenever `a` holds, then `b` holds in the next two time units.
phi5 = (a.implies(b.eventually(lo=0, hi=2))).always()
# We also support timed until.
phi6 = a.timed_until(b, lo=0, hi=2)
# `a` holds in two time steps.
phi7 = a >> 2
String based API
Propositional logic (parse api)
# - Lowercase strings denote atomic predicates.
phi0 = mtfl.parse('atomicpred')
# - infix operators need to be surrounded by parens.
phi1 = mtfl.parse('((a & b & c) | d | e)')
phi2 = mtfl.parse('(a -> b) & (~a -> c)')
phi3 = mtfl.parse('(a -> b -> c)')
phi4 = mtfl.parse('(a <-> b <-> c)')
phi5 = mtfl.parse('(x ^ y ^ z)')
# - Unary operators (negation)
phi6 = mtfl.parse('~a')
phi7 = mtfl.parse('~(a)')
Modal Logic (parser api)
# Eventually `x` will hold.
phi1 = mtfl.parse('F x')
# `x & y` will always hold.
phi2 = mtfl.parse('G(x & y)')
# `x` holds until `y` holds.
# Note that since `U` is binary, it requires parens.
phi3 = mtfl.parse('(x U y)')
# Weak until (`y` never has to hold).
phi4 = mtfl.parse('(x W y)')
# Whenever `x` holds, then `y` holds in the next two time units.
phi5 = mtfl.parse('G(x -> F[0, 2] y)')
# We also support timed until.
phi6 = mtfl.parse('(a U[0, 2] b)')
# Finally, if time is discretized, we also support the next operator.
# Thus, LTL can also be modeled.
# `a` holds in two time steps.
phi7 = mtfl.parse('XX a')
Quantitative Evaluate (Signal Temporal Logic)
Given a property phi
, one can evaluate is a timeseries satisifies
phi
. Time Series can either be defined using a dictionary mapping
atomic predicate names to lists of (time
, val
) pairs or using
the DiscreteSignals
API (used internally).
There are two types of evaluation. One uses the boolean semantics of MTL and the other uses Signal Temporal Logic like semantics.
# Assumes piece wise constant interpolation.
data = {
'a': [(0, 100), (1, -1), (3, -2)],
'b': [(0, 20), (0.2, 2), (4, -10)]
}
phi = mtfl.parse('F(a | b)')
print(phi(data))
# output: 100
# Evaluate at t=3
print(phi(data, time=3))
# output: 2
# Evaluate with discrete time
phi = mtfl.parse('X b')
print(phi(data, dt=0.2))
# output: 2
Boolean Evaluation
To Boolean semantics can be thought of as a special case of the
quantitative semantics where True ↦ 1
and False ↦ -1
. This
conversion happens automatically using the quantitative=False
flag.
# Assumes piece wise constant interpolation.
data = {
'a': [(0, True), (1, False), (3, False)],
'b': [(0, False), (0.2, True), (4, False)]
}
phi = mtfl.parse('F(a | b)')
print(phi(data, quantitative=False))
# output: True
phi = mtfl.parse('F(a | b)')
print(phi(data))
# output: True
# Note, quantitative parameter defaults to False
# Evaluate at t=3.
print(phi(data, time=3, quantitative=False))
# output: False
# Compute sliding satisifaction.
print(phi(data, time=None, quantitative=False))
# output: [(0, True), (0.2, True), (4, False)]
# Evaluate with discrete time
phi = mtfl.parse('X b')
print(phi(data, dt=0.2, quantitative=False))
# output: True
Fuzzy Evaluation
Fuzzy evaluation considers the signals as fuzzy values or values to be
compared through fuzzy operators. The connectives used for evaluation,
that is the implementation of the basic logic operations such as and
or or
, can be specified through the logic
parameter. The connectives
available in mtfl.connective
are default
, zadeh
, godel
,
lukasiewicz
, and product
(See FT-LTL).
a = mtfl.parse("a")
b = mtfl.parse("b")
d = {
"a": [(0, 5.), (1, 10.), (3, 0.), (4, 10.), (5, 11.)],
"b": [(0, 15.), (2, 5.), (4, 10.), ],
}
# Crisp comparison between the value of a and a constant
i = a < 6
print(i, i(d, time=None, logic=mtfl.connective.zadeh, quantitative=True))
# output: (a < 6) [(0, 1.0), (1, 0.0), (3, 1.0), (4, 0.0), (5, 0.0)]
# Crisp comparison between the value of a and b
i = a < b
print(i, i(d, time=None, logic=mtfl.connective.zadeh, quantitative=True))
# output: (a < b) [(0, 1.0), (1, 1.0), (2, 0.0), (3, 1.0), (4, 0.0), (5, 0.0)]
# Fuzzy comparison between the value of a and b, increasing as a decreases in the interval (b;b+10]
i = a.lt(b, 10)
print(i, i(d, time=None, logic=mtfl.connective.zadeh, quantitative=True))
# output: (a <[~10] b) [(0, 1.0), (1, 1.0), (2, 0.5), (3, 1.0), (4, 1.0), (5, 0.9)]
# Temporal fuzzy operation
i = a.lt(b, 10).always()
print(i, i(d, logic=mtfl.connective.zadeh, quantitative=True))
# output: G(a <[~10] b) 0.5
Fuzzy caveats
Consider using quantitvative=True
when specifying a fuzzy logic.
Combining fuzzy and boolean evaluation might result in unexpected
behaviours due to the underlying conversion of signal values to
boolean ones.
Note that the library only evaluates signals and operations at
pivot points, where their value changes. This might result in
invalid values for some connectives (product
). Consider the
following example:
data = {
'a': [(0, 0.5), (1, 0.1)],
}
phi = mtfl.parse('G(a)')
print(phi(data, quantitative=False))
# output: 0.05
Under the product
connective (See FT-LTL), the norm operator
is defined as the product of two values. phi
thus evaluates to
0.05 = 0.5 * 0.1
across the whole signal when it should actually
tend towards 0
due to the repeated valuation of a < 1
at all
time instants.
Utilities
import mtfl
from mtfl import utils
print(utils.scope(mtfl.parse('XX a'), dt=0.1))
# output: 0.2
print(utils.discretize(mtfl.parse('F[0, 0.2] a'), dt=0.1))
# output: (a | X a | XX a)
Similar Projects
Feel free to open up a pull-request to add other similar projects. This library was written to meet some of my unique needs, for example I wanted the AST to be immutable and wanted the library to just handle manipulating MTL. Many other similar projects exist with different goals.
Citing
@misc{pyMTL,
author = {Marcell Vazquez-Chanlatte},
title = {mvcisback/py-metric-temporal-logic: v0.1.1},
month = jan,
year = 2019,
doi = {10.5281/zenodo.2548862},
url = {https://doi.org/10.5281/zenodo.2548862}
}
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